An optical scanning device includes n-odd (n≧2) light sources disposed at different positions at least in a sub-scanning direction, a pixel forming part in which one pixel is depicted by light beams emitted from m-odd (n≧m≧2) light sources of the n-odd light sources and a distance of adjacent light sources for emitting the light beams in the sub-scanning direction is less than 5 μm, and a light source driving control part configured to control an emitting state of the light sources for depicting the one pixel and conduct an emission driving control for moving a gravity center of the one pixel in the sub-scanning direction.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An optical scanning device, comprising: n-odd (n≧2) light sources disposed at different positions at least in a sub-scanning direction; a pixel forming part in which one pixel is depicted by light beams emitted from m-odd (n≧m≧2) light sources of the n-odd light sources, and a distance of adjacent light sources for emitting the light beams in the sub-scanning direction is less than 5 μm; and a light source driving control part configured to control an emitting state of the light sources for depicting the one pixel and conduct an emission driving control for moving a gravity center of the one pixel in the sub-scanning direction.
2. The optical scanning device according to claim 1 , further comprising a sub-scanning direction pixel position detecting part configured to detect a deviation in position of the one pixel in the sub-scanning direction, wherein the light source driving control part conducts the emission driving control according to a detection result of the sub-scanning direction pixel position detection part.
3. The optical scanning device according to claim 2 , wherein the light source driving control part controls an emitting time ratio of the light sources such that a total emitting time or a total exposure area of the light sources for depicting the one pixel becomes constant.
4. The optical scanning device according to claim 2 , wherein the light source driving control part controls an emitting level ratio of the light sources such that a total exposure energy of the light sources for depicting the one pixel becomes constant.
5. The optical scanning device according to claim 1 , wherein the light source driving control part controls an emitting time ratio of the light sources such that a total emitting time or a total exposure area of the light sources for depicting the one pixel becomes constant.
6. The optical scanning device according to claim 1 , wherein the light source driving control part controls an emitting level ratio of the light sources such that a total exposure energy of the light sources for depicting the one pixel becomes constant.
7. The optical scanning device according to claim 1 , wherein after start of the emission driving control, the one pixel is depicted by the light beams emitted from (m+1)-odd light sources, and after end of the emission driving control, the one pixel is depicted by m-odd light sources shifted at one light source in the sub-scanning direction relative to the m-odd light sources for depicting the one pixel before the emission driving control.
8. The optical scanning device according to claim 7 , wherein the light source driving control part conducts a smoothing processing for stepwisely changing the emitting state of at least one of a light source positioned in an upper end and a light source positioned in a lower end in the sub-scanning direction in the light sources for depicting the one pixel by using at least one of a pulse width modulation (PWM) and a power modulation (PM), and smoothly moves the gravity center of the one pixel in the sub-scanning direction.
9. The optical scanning device according to claim 1 , wherein after start of the emission driving control, the one pixel is depicted by the light beams emitted from (m+1)-odd light sources.
10. The optical scanning device according to claim 9 , wherein the light source driving control part conducts a smoothing processing for stepwisely changing the emitting state of at least one of a light source positioned in an upper end and a light source positioned in a lower end in the sub-scanning direction in the light sources for depicting the one pixel by using at least one of a pulse width modulation (PWM) and a power modulation (PM), and smoothly moves the gravity center of the one pixel in the sub-scanning direction.
11. The optical scanning device according to claim 1 , wherein the m-odd light sources simultaneously depict L-odd pixels arranged in L-groups (L≧2) in the sub-scanning direction.
12. An image forming apparatus, comprising: n-odd (n≧2) light sources disposed at different positions at least in a sub-scanning direction, wherein one pixel is depicted by light beams emitted from m-odd (n≧m≧2) light sources of the n-odd light sources and a distance of adjacent light sources for emitting the light beams in the sub-scanning direction is less than 5 μm.
13. The optical scanning device according to claim 1 , wherein a surface-emitting laser is used in the light source.
14. An image forming apparatus comprising the optical scanning device set forth in claim 1 .
15. A color image forming apparatus comprising the optical scanning device set forth in claim 1 .
16. An optical scanning method, comprising the steps of: providing n-odd (n≧2) light sources at different positions at least in a sub-scanning direction; depicting one pixel by light beams emitted from m-odd (n≧m≧2) light sources of the n-odd light sources; setting a distance of adjacent light sources for emitting the light beams in the sub-scanning direction to be less than 5 μm; controlling an emitting state of the light sources for depicting the one pixel; and conducting an emission driving control for moving a gravity center of the one pixel in the sub-scanning direction.
17. The optical scanning method according to claim 16 , further comprising the steps of: detecting a deviation in position of the one pixel in the sub-scanning direction; and performing the emission driving control according to a detection result.
18. The optical scanning method according to claim 17 , further comprising the steps of providing an image forming apparatus, scanning the light beams emitted from the m-odd light sources in a scanning direction, and performing said scanning within said image forming apparatus.
19. The optical scanning method according to claim 16 , wherein after start of the emission driving control, the one pixel is depicted by light beams emitted from (m+1)-odd light sources, and after end of the emission driving control, the one pixel is depicted by m-odd light sources shifted at one light source in the sub-scanning direction relative to the m-odd light sources for depicting the one pixel before the emission driving control.
20. The optical scanning method according to claim 16 , wherein after start of the emission driving control, the one pixel is depicted by the light beams emitted from (m+1)-odd light sources.
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October 26, 2007
January 3, 2012
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